Title :
A Robust Metal-Assisted Etching Process for Ag-Catalyzed Texturing of Silicon
Author :
Booker, Katherine ; Rahman, Shakir ; Teck-Kong Chong ; Mankelow, Rowena ; Weber, Klaus ; Blakers, Andrew
Author_Institution :
Centre for Sustainable Energy Syst., Australian Nat. Univ., Canberra, ACT, Australia
Abstract :
Silicon structures with excellent light-trapping performance have been developed using a silver-catalyzed metal-assisted etching (MAE) process. The MAE process can be well controlled through variation in solution composition and exposure times, even when the process is conducted on obscured, polished, (111) surfaces. Light trapping was calculated to be >90% of Lambertian for the best performing sample, with solar weighted average reflectance (Rw) of 13% when λ = 400-1000 nm. This represents an 18% reflectance reduction compared with a planar sample and 13% improvement compared with a sample with conventional isotexture. This was improved further by encapsulation of the sample, reducing Rw(400-1000 nm) for the MAE-textured sample to 2%. The structures were well passivated using atomic layer deposition and demonstrate surface recombination velocities (Seff) of ≈30 cm·s-1 at injection levels of Δn = 1015 cm-3.
Keywords :
atomic layer deposition; catalysis; elemental semiconductors; etching; passivation; polishing; silicon; surface recombination; surface texture; (1 1 1) surfaces; Ag-catalyzed texture; MAE-textured sample; Si; atomic layer deposition; injection levels; light-trapping; passivation; polishing; silicon structures; silver-catalyzed metal-assisted etching; solar weighted average reflectance; solution composition; surface recombination velocity; Etching; Metals; Silicon; Substrates; Surface morphology; Surface texture; Light trapping; SLIVER; metal-assisted etching (MAE); silicon; solar cells; texturing;
Journal_Title :
Photovoltaics, IEEE Journal of
DOI :
10.1109/JPHOTOV.2015.2400222
